DE2558717A1 - FLASHER DEVICE FOR MOTOR VEHICLES - Google Patents

Description

SWF special factory for car accessories Guet & v Rau GmbH.

712 Bietigheirn-Bissingen? Ζζβ7 1 7

PAT / j / Vo / Tü A 12 k3k

3 * December 4th, 1975

Flasher device for motor vehicles

The invention relates to a flasher device for motor vehicles with an astable transistor flip-flop circuit, which periodically switches the blinking circuit on and off via a switching relay.

Various circuits are known in which the toggle switch of the flasher device is also used for delivery is used by other monitoring signals. Separate control circuits are provided for the flip-flop circuit and the control circuits are separate Monitoring lamps included. This multiple use however, the toggle switch brings flicker display signals with the same holding frequency in all monitored circuits like the flashing signals of the direction indicator lights.

There are also other monitoring circuits in the motor vehicle provided, which emit an audible signal via an acoustic signal generator. This is however a separate acoustic signal generator, such as a buzzer, buzzer or the like., is required.

It is the object of the invention to provide a flasher device of the type mentioned in the introduction so that acoustic signals can also be used without an additional acoustic signal generator Display signals for monitoring circuits are generated can.

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According to the invention, this can be achieved on the one hand in that the switching relay is an electromechanical one Buzzer is designed, which has its own break contact and a control work contact · in a self-interrupting circuit can be operated and, on the other hand, in that a flip-flop is used, its switching frequency increases with decreasing load and that via a control work contact the flip-flop can be loaded with high resistance. In both cases, the switching relay operated and generated with a significantly higher switching frequency than when the direction indicator flashes a clearly perceptible acoustic signal. The switching relay of the toggle switch takes over the Function of the separate acoustic signal generator, whereby in the first case the frequency of the display signal through the natural frequency of the switching relay and, in the second case, the high switching frequency of the lightly loaded Toggle switching is determined.

The control of the switching relay, designed as a buzzer, via a monitoring current circuit is solved in such a way that the Switching contact of the switching relay is designed as a changeover contact, in which the changeover spring via a current monitoring resistor is switched on at the supply potential, in which the normally open contact spring with the flashing circuit is connected and in which the control work contact is connected to the normally closed contact spring, its free Connection contact spring with the connection of the switching relay connected to the output transistor of the flip-flop connected is.

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In parallel to the acoustic signal, an optical display signal for buzzer operation can also be used in any case be derived. For this purpose, it is only necessary to provide for a control lamp via a further charge work i t skont act can be connected to the output of the flip-flop.

The invention is illustrated with reference to in the drawings Embodiments explained in more detail. Show it

1 shows an electrical flasher device in a circuit diagram according to the invention, in which the switching relay is designed as a buzzer and can be controlled directly and

Fig. 2 in the circuit diagram of a flasher device in which the beiastungsverbindxge Toggle switching can be controlled with the switching relay via a high-resistance control circuit is.

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The flasher device is connected to terminals 49 + and 31- with a DC supply voltage corresponding to PoIa-. rity connected. The output 49a leads to the direction switch, which switches on the flashing lamps that are permanently switched on at potential 31- on the side of the vehicle.

In the idle state, the output 49a is not loaded. Of the Contact s of switching relay S assumes the position shown. Since no current flows through the measuring resistor R3, there is also no voltage drop on it. The transistor switching stage T2 receives no reverse voltage and is over the control voltage tapped at the voltage divider controlled. This voltage divider contains an upstream diode D1, a diode D2 and a resistor R8. Only a part of the voltage drop across diode D2, caused by the voltage divider, is made up the resistors r6 and R7 is determined by the voltage drop superimposed on the diode DI and as a control voltage exploited. In this way the control voltage can be exactly set to the desired threshold value and optimally adapted to the characteristics of the diodes D1 and D2. The control voltage is derived from the applied DC supply voltage and the temperature, since these diodes D1 and D2 would have voltage and temperature-dependent widths represent. The diode resistors are known to have has a negative temperature coefficient, as well like the transistors used in the flasher device. In this way, the response threshold the transistor switching stage to the sustain charac te rL-stik the voltage and temperature-dependent flip-flop so that a voltage and temperature compensation

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sation is reached and the flasher device in works safely over a larger voltage and temperature range. The puncture of the transistor switching stage remains as a current monitoring device and the failure of a flashing lamp is still clear recognized.

When the transistor switching stage T2 is conductive, the is the Base of the flip-flop transistor T1 facing away from the terminal of the time-determining capacitor C2 of the single-transistor flip-flop Via the collector-emitter path of the transistor switching stage T2 and the measuring resistor R3 connected to the potential 49+, on which the base of the flip-flop transistor T1 and dei "facing Connection of the capacitor C2 are. The capacitor C2 is therefore discharged in the initial position.

If the output 49a is loaded, then it is initially over the switched on flashing lamps and the resistors R1, R2 and R4 a control circuit for the trigger transistor T1 closed. The transistor T1 becomes conductive and initiates pulsed operation. The switch lais S responds and contact s switches the flashing circuit to potential 49 + · If the flashing circuit is correct the voltage drop across the measuring resistor R3 is so great, that the emitter reverse voltage exceeds the base control voltage in the transistor switching stage T2. The transistor T2 becomes non-conductive, so that the potential 31- charges the capacitor C2 via the resistor R5. So long the charging process continues, the transistor Tl due to the resulting voltage drop across the resistor R1 held conductive. The conductive transistor T1 switches on the switching relay S, which remains energized until the charging process of the capacitor C2 has ended and the transistor T1 becomes non-conductive again. The switch contact

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during the pulse time switches the potential 4 ° - + via the resistors R2 and Rk to the base of the transistor T1, which is blocked dax-via when no more charging current flows through the capacitor C2.

If a flashing lamp has failed in the flashing circuit, the voltage drop across the measuring resistor is sufficient in the pulse phase R3 is no longer off in order to block the transistor switching stage T2. The transistor T2 remains during the pulse phase conductive and thus the voltage divider is switched from the resistors R3 and R5 to the charging voltage for the capacitor C2 decreased. The consequence of this is that the loading process is completed more quickly, i.e. the Pulse time is shorter. The subsequent pause time, which is caused by the discharge of the capacitor C2 via the Resistors R1, R4 and R3 as well as the conductive transistor T2 occurs is also shorter, since the charging voltage from which the discharge originates is lower. The switching frequency the toggle switch is thus increased. This changes the function of the transistor switching stage T2 not if the control voltage is derived via the voltage divider designed in this way and the voltage and temperature-related changes in the toggle switch compensated.

This compensation circuit in the transistor switching stage T2 has the advantage that even with a disturbed Flashing circuit activated briefly by the inrush current in the flashing circuit of transistor T2 and so a voltage pulse to the flip-flop gives that this begins immediately with a pulse phase at the beginning of operation.

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• s.

The capacitor C1 is an electrolytic capacitor. The switching relay S is designed as an electromechanical buzzer, which can have a natural frequency of 50 Hz and more. If the control work contact ws, the part of a Monitoring circuit can be closed, then the switching relay S is on the rest side of its changeover contact s operated in a self-interrupter circuit and therefore excited and again in the rhythm of its natural frequency switched off. The resulting acoustic noises are perceived as an acoustic display signal. That Schalti-elals S can therefore rub the switching function in Flashing mode can also be used as an acoustic signal generator for other monitoring circuits.

The situation is similar in the embodiment according to FIG. 2, in which the astable multivibrator with the switching relay is drawn as a flasher unit BG. This flasher BG controls via its output 49a and the direction switch FRS the flashing lamps BLl or BLr separated according to the vehicle side. The direction switch FRS is thereby set from the central switch-off position 0 to the working position L or R.

The flasher unit BG can also use the warning light switch WLS be put into operation, the contacts of this warning light switch WLS all flashing lamps BLl and BLr with the Connect output 49a of the flasher unit BG like the outputs Recognize VL and VR as well as 49a of the warning light switch WLS permit. In addition, the warning control lamp WKL is switched on.

When the flasher unit BG is heavily loaded in the flashing or hazard warning mode, the switching frequency of the flip-flop circuit is small and has a few oscillations per second.

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¥ ¥ becomes the control work contact via an external monitoring circuit vs closed, then the load-dependent Flasher unit BG loaded with the high resistance R. The toggle switch in the flasher unit BG begins to vibrate, but at a much higher frequency. Via the further control work contact ws2 can a control lamp KL to the output 49a of the flasher BG are switched on, so that an optical display signal is also obtained. the Toggle switching can also be switched on via WS2 and the indicator lamp alone.

With this design, the toggle switch is used to emit flashing or flashing signals depending on the load. Hazard warning signals via the flashing lamps and to the control of the switching relay is used as an acoustic signal transmitter and otherwise also a separate signal transmitter saved for the acoustic signals when monitoring additional circuits.

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Claims (3)

- «- A 12 h3k Expectations (1 .. Flasher device for motor vehicles with a astable transistor flip-flop circuit that periodically switches the flashing circuit on and off via a switching relay, characterized in that the switching relay (s) is designed as an electromechanical buzzer, which has its own break contact (s) and a control work contact (ws) in self-breaker circuit is operable. 2. Flasher device for vehicles with a astable transistor flip-flop circuit that periodically switches the flashing circuit on and off via a switching relay, characterized in that a flip-flop (Bö) is used, the switching frequency of which decreases with Load increases and that via a control work contact (vsi) the flip-flop (Bö) high-resistance (r) loadable is. 3. Flasher device according to claim 1, characterized in that the switching contact (s) of the switching relay (s) is designed as a switching contact, in which the switching spring via a Stroraüberwachungsidderstand ( ^R 3) is connected to the supply potential (^ 9 +), in which the Normally open contact for is connected to the flashing circuit (49a) and in which the control work contact (vs) is connected to the normally closed contact spring, the free connection contact spring of which is connected to the connection of the switching relay (s), which is connected to the output transistor (Τ1) of the flip-flop circuit. 709828/0355 -9- ORlGlNAL INSPECTED A 12 434 A flasher device according to one of claims 1 to 3j characterized in that a further control work contact (ws2) a control lamp (KL) can be connected to the output (49a) of the flip-flop circuit (BG). 709828/03 5 5